EP2835876A1 - Module casing for an electronic assembly - Google Patents

Abstract

A module housing is provided with a housing component (100) for mounting an electronic assembly and a connector (200) for electrical connection to the assembly. The connector (200) has a base body (201) with a plurality of receptacles (215) for electrical plug contacts (217) and a receptacle (215) encircling plug frame (220). The module housing has a locking arrangement for mechanical attachment of the connector (200) to the housing component (100), which has a locking element (205) of the connector (200) and a locking element (102) of the housing component (100), wherein the locking element is a hook element ( 210) and the locking element (102) of the housing component (100) has a corresponding recess (105) for receiving the hook element (210).

Description

The invention relates to a module housing. In particular, the invention relates to a module housing for receiving an electronic control device for use in a motor vehicle.

A module housing is adapted to receive an electronic circuit, which can in particular a control unit for controlling a system or subsystem aboard a motor vehicle comprehensive. To produce an electrical connection between the electronic circuit and other components, a connector is provided, which conventionally includes a plurality of plug contacts. To protect the electronic circuit against dust and moisture, the connector may be sealed by means of a curing sealant against the module housing.

During the manufacture of the module housing manufacturing steps may be required in which the connector is mechanically loaded with respect to the module housing. Under certain circumstances, the sealing compound between the connector and the module housing is not yet applied or not yet cured during these manufacturing steps. For example, after the assembly of the module housing, a leak test can take place in which the plug connector is plugged into a corresponding receiving element. It can also be a final programming of the electronic circuit, are connected to the plug contacts of the connector with a programmer.

When plugging and unplugging mechanical forces can act on the connector, which affect a correct orientation of the connector with respect to the module housing or the electronic circuit. In particular, the Connector with respect to the module housing or the electronic circuit can be tilted. As a result, a mechanical load of electrical connection points between the connector and the electronic circuit can arise, which can lead to a failure of the controller at a later date. In addition, the tightness of the module housing and the assembly of the assembly may be impaired.

It is therefore an object of the invention to provide a module housing that provides an improved mechanical fixation of the connector. The invention solves this problem by means of a module housing with the features of the independent claim. Subclaims give preferred embodiments again.

An inventive module housing has a housing component and a connector. The housing component is designed in particular for fastening an electronic assembly. The connector is designed in particular for electrical connection to the module. The connector has a plurality of receptacles for electrical plug-in contacts and a receptacle surrounding the plug-in frame.

Conveniently, the connector has a base body which contains the receptacles and has the plug-in frame. For example, the receptacles are formed in a base plate of the base body, in particular they penetrate the base plate in a plugging direction. The plug-in frame extends, for example, counter to the insertion direction of one end which is connected to the base plate to an opening on a side facing away from the base plate side of the plug frame.

The module housing has a locking arrangement for mechanical attachment of the connector to the housing component. The locking arrangement is in particular intended to Align the housing component and the connector to each other.

The locking arrangement has a locking element of the connector and a locking element of the housing component. The locking element of the connector has a hook element. The locking element of the housing component has a corresponding recess for receiving the hook element. The term "hook element" does not limit to a particular shape of the hook element, in particular no limitation to a bent or angled shape. Rather, the hook member is adapted to "hook" with the corresponding recess for locking the connector to the housing member, i. E. in particular to enter into a positive connection.

In one embodiment, the locking element of the connector extends parallel to an extension direction of the plug frame. The hook element can be arranged at one end of the locking element of the connector and extend at right angles from the locking element.

In one embodiment, the hook element is formed by a projection of an end portion of the base body. The end portion preferably extends from the base plate in the insertion direction of the connector. For example, the base plate with two opposite end portions in a transverse direction forms a U-shape, which is open in particular in the insertion direction. The projection projects preferably in a joining direction to the locking element of the housing component. The joining direction is in particular that direction in which the connector and the housing component are approximated and / or assembled during assembly of the module housing.

In a further development, the shape of the recess corresponds to the shape of the projection. The recess and the projection are expediently arranged such that the projection engages in the recess, wherein the projection preferably completely fills the recess.

In one embodiment, the module housing further includes a housing termination to complete the module housing together with the housing component and the connector on all sides. The housing termination, the connector and the housing component follow each other in the joining direction, in particular in this order. By means of the housing closure, the module housing can be hermetically sealed, isnbesondere with the aid of a sealant and the respective connection points between the housing closure, connectors and housing component.

In one embodiment, the hook element and the corresponding recess are arranged on an end of the housing component or of the connector facing the housing end and extend in particular in the joining direction at most to the middle of the housing component or the connector.

The housing module according to the present disclosure allows a fixation of the connector with respect to the housing member, which can largely prevent tilting or pivoting of the connector. Both the housing member and the connector can be easily manufactured, for example by casting or injection molding, without requiring an additional undercut. The improved centering of the connector with respect to the housing component can help to maintain the tightness and the absence of voltage of the elements, in particular of the connector, even in the case of mechanical stress, as may occur, for example, during insertion and removal operations of the connector.

In a preferred embodiment, two locking elements are arranged on opposite boundaries of the connector. For example, the main body has two end portions which are arranged at mutually in a transverse direction opposite ends of the base plate. The transverse direction is perpendicular to the insertion direction and in particular also perpendicular to the joining direction. Preferably, each of the end sections has a locking element, which is encompassed by the locking arrangement, each having a hook element. The tilting of the connector with respect to the housing component can thus be prevented in an improved manner with respect to positive and negative forces. Alternatively or additionally, the risk is particularly low that the connector is rotated unintentionally about an axis parallel to the joining direction.

In one embodiment, the plug-in frame has a width that is several times greater than its height. The width is in particular the extension in the transverse direction and the height is the expansion in the joining direction. In a further development, the locking elements are arranged in the region of sections of the plug frame extending along the height. As a result, a lever effect can be exploited, which can ensure a particularly good fixation of the connector with respect to the housing component.

The connector may have at a portion of the plug-in frame, which extends along the width, a recess which extends into the connector opposite to the joining direction. The housing component then expediently has a corresponding locking element for engagement in this recess. As a result, in particular a deformation of the connector during insertion or removal from a corresponding connector can be reduced, in particular in a not directly fixed by the Arretierungsanordnung central region. Insertion and removal processes, in particular during a manufacturing process, thus can not influence the correct positioning and the absence of voltage of the connector with respect to components connected to it.

In a further preferred embodiment, the connector is adapted to be approximated in the joining direction - this is in particular in the direction of the hook elements - to the housing element and the housing closure is adapted to approximate in the same direction to the housing member and the connector and with the housing member to be connected to lock the connector between the housing member and the housing closure.

As a result, it can be prevented that the locking element of the connector slips out of the corresponding recess in the housing component under mechanical loading of the module housing and thus impairs the fixation of the connector with respect to the housing component.

• Figur 1 eine Explosionsdarstellung eines Modulgehäuses gemäß dem exemplarischen Ausführungsbeispiel;
• Figur 2 eine Seitenansicht des Modulgehäuses von Figur 1;
• Figur 3 eine perspektivische Ansicht des Gehäusebauteils des Modulgehäuses von Figur 1;
• Figur 4 eine perspektivische Ansicht des Steckverbinders des Modulgehäuses von Figur 1,
• Figur 5 eine weitere perspektivische Ansicht des Gehäusebauteils des Modulgehäuses von Figur 1
• Figur 6 eine schematische Seitenansicht des Steckverbinders des Modulgehäuses von Figur 1.

An exemplary embodiment of the invention will now be described in detail with reference to the accompanying drawings. It shows:

• FIG. 1 an exploded view of a module housing according to the exemplary embodiment;
• FIG. 2 a side view of the module housing of FIG. 1 ;
• FIG. 3 a perspective view of the housing component of the module housing of FIG. 1 ;
• FIG. 4 a perspective view of the connector of the module housing of FIG. 1 .
• FIG. 5 a further perspective view of the housing part of the module housing of FIG. 1
• FIG. 6 a schematic side view of the connector of the module housing of FIG. 1 ,

FIG. 1 shows a module housing in an exploded view. The illustrated module housing has a housing component 100, a plug connector 200, an optional sealant 300 and a housing termination 400. The housing component 100, the connector 200 and the housing closure 400, which can also be referred to as a further housing component, enclose an interior of the module housing.

In FIG. 1 Furthermore, a Cartesian coordinate system with x-, y- and z-direction is indicated. In this and the following figures, use is made of this exemplary, non-limiting definition.

The housing component 100 is preferably produced by casting or injection molding. For example, the housing member 100 is made of a metal. Usually, the housing component 100 is shaped so that an electronic assembly, which may in particular have a printed circuit board, can be covered by at least one side by means of the housing component 100. In the presentation of FIG. 1 For example, the housing component 100 is configured to cover the electronic assembly in four directions, namely in the positive z-direction, in the positive y-direction and in the positive and negative x-direction.

The connector 200 has a main body 201, which is preferably also produced by casting or injection molding and shaped so that it can be brought into engagement with the housing member 100. The main body 201 of the connector 200 is made of a plastic material, for example. The connector 200 may be attached to the housing member 100 by being moved toward the housing member 100 in the shown z-positive direction.

The main body 201 of the connector 200 has a plurality of receptacles 215, each for receiving an electrical Plug contacts 217 of the connector 200 are provided. Each of the electrical plug contacts 217 may be male or female or comprise another plug element such as a shield. In the illustrated, preferred embodiment, the base body has a plug-in frame 220, which is formed circumferentially around the receptacles 215 and the plug contacts 217.

The plug-in frame 220 extends in the negative y-direction, in which the receptacles 215 or the plug contacts 217 received in them also run. The receptacles 215 and the plug contacts 217 are thus covered by the plug-in frame 220 in the positive and negative x-direction and in the positive and negative z-direction. For example, the receptacles 215 are contained in a base plate 202 of the main body 201 and the plug-in frame 220 extends in plan view onto a main extension plane of the base plate 202 around the receptacles 215 and the plug contacts 217 (see FIG. 6 ). The plug-in frame 220 preferably extends from an end 222, which is connected to the base plate, to an opening 201 facing away from the base plate 202, so that it defines an insertion direction, which is in particular parallel to a normal to the main extension plane of the base plate. In the present case, the plug-in direction coincides with the (positive) y-direction. The base plate 202 and the plug-in frame 220 are preferably sections of an integral body 201.

The plug-in frame 220 is particularly adapted to engage in a corresponding receptacle of a mating connector or a socket which is electrically and mechanically connectable to the connector 200. To connect the mating connector or the socket is plugged in particular in the direction of insertion on the plug frame 220. In one embodiment, the plug-in frame 220 includes one or more dividing ribs that extend along the z-direction. It is also possible to provide a plurality of mutually separate plug-in frames 220.

The connector 200 extends over the entire width of the housing component 100. In particular, the base plate 202 of the main body 201 of the connector 200 protrudes on both sides beyond the plug-in frame 220 in a transverse direction - which in the present case corresponds to the x-direction. The main body 201 has end sections 203 which adjoin the base plate 202 in the transverse direction and extend away from the plug frame 220 at an angle, in particular perpendicular, to the transverse direction in the insertion direction. In plan view of the plane formed by the transverse and plug-in direction, the end sections 203 together with the base plate 202 form a U-shape, which is open in particular in the plugging direction.

The housing termination 400 terminates the illustrated module housing in the negative z-direction. In one embodiment, the housing closure 400 is made from a sheet of metal, such as by stamping, pressing, or deep drawing. Positive z-direction surfaces of the housing termination 400 are configured to abut against corresponding surfaces in the negative z-direction of the housing component 100 and the connector 200. In this case, the sealing compound 300 may be provided between the housing closure 400 and the other components 100, 200.

In the illustrated embodiment, the housing termination 400 includes a positive z-directional circumferential rim 405. The rim 405 is configured to abut the housing member 100 in the x-y plane after attachment of the housing termination 400 thereto. Bend tabs 410 formed on the housing termination 400 may be bent about the collar 115 of the housing member 100 to secure the housing end 400 to the housing member 100.

The edge 405 may engage in a different embodiment in a corresponding paragraph or a corresponding groove on the housing member 100 in another embodiment. Similarly, the border 405 also rest on the connector 200 and engage in this. For this purpose, the connector 200 may also have a shoulder or a groove. The housing termination 400 may exert a clamping action on the housing member 100 and the connector 200 by means of the rim 405, such that the connector 200 is prevented from mounting to the components 100 and 400 by the rim 405 at a distance from the housing member 100 in the negative y direction , In other words, the rim 405 can surround the housing component 100 and the connector 200 in such a way that it limits a displacement of the connector 200 against the direction of insertion relative to the housing termination 400.

The housing termination 400, the connector 200 and the housing component 100 are assembled in a joining direction. In the present case, the joining direction corresponds to the (positive) z-direction. For example, the connector 200 is approximated in the joining direction of the housing member 100 and mounted on this for mounting the module housing. Subsequently, for example, the housing closure 400 in the joining direction of the connector 200 and the housing member 100 is approximated and placed on this. The joining direction is preferably perpendicular to the direction of insertion and to the transverse direction. The plug-in direction and the transverse direction preferably span a main extension plane of the module housing, on which the joining direction is perpendicular.

In the illustrated preferred embodiment, the sealant 300 is provided to seal the housing member 100, the connector 200 and the housing closure 400 against each other. Preferably, it is a curing sealant which mechanically secures the components 100, 200 and 400 together. In one embodiment is dispensed with an additional mechanical fixation, for example by screws, rivets or snap fasteners.

In the region of a limitation in the negative y-direction, the housing component 100 is shaped to engage or engage with the connector 200. For this purpose, in this area, the boundaries in the positive and negative x-direction each carry a recess 105, which extends in the positive z-direction, so that open ends of the recess 105 point in the negative z-direction. In the region of boundaries in the positive and negative x-direction, the connector 200 each has a locking element 205. The locking element 205 extends in the positive y-direction and comprises at its end a hook element 210 which is adapted to engage in a positive z-direction in one of the recesses 105 of the housing component 100. The engagement is preferably positive fit, so that no gap between the connector 200 and the housing member 100 remains. Similarly, the limit of the connector 200 in the positive z-direction is as gap-free as possible at a boundary of the housing member 100 in the negative z-direction.

In other words, the module housing has a locking arrangement which is adapted to align the housing component 100 and the connector 200 to one another. The locking arrangement has a locking element 102 of the housing component 100 and a corresponding locking element 205 of the connector 200. The locking element 102 of the housing component 100 is formed, for example, on an end portion of a longitudinal side of the housing component 100 that faces the connector 200, that is, in particular extending from the connector 200 to an end of the housing component 100 opposite the connector 200. The locking element 205 of the connector is formed, for example, on one of the end portions 203 of the main body 201 of the connector 200. In the present case and preferably, the locking arrangement has two locking elements 102 of the connector 200, which are formed on the two opposite with respect to the transverse direction end portions 203 of the body 201, and to two locking elements 102 of the housing component 100 correspond, which are formed with respect to the transverse direction opposite longitudinal side side walls of the housing member 100.

The locking element 205 - or each of the locking elements 205 - of the connector 200 has a hook element 210. The hook element 210 is, for example, a projection, in particular a nose, of the respective end section 203 of the main body 201 of the connector 200. The projection 210 projects in the joining direction towards the corresponding locking element 102 of the housing component 100.

The corresponding locking element 102 has a recess 105 whose shape corresponds to the shape of the projection 210. In particular, the recess 105 is open against the joining direction. The recess 105 and the projection 210 are arranged such that in the assembled module housing the projection 210 engages in the recess 105. Preferably, the protrusion 210 completely fills the recess 105.

FIG. 2 shows a side view of the module housing of FIG. 1 , The x-axis is directed towards the viewer. The illustration shows the module housing of FIG. 1 in an assembled state, wherein the sealant 300 is not recognizable.

It can be seen how the hook element 210 of the locking element 205 engages in the recess 105 on the housing component 100 in the positive z-direction.

The hook element 210 and the corresponding recess 105 are arranged on an end of the housing component 100 or of the plug connector 200 which faces the housing termination 400 with respect to the joining direction. In particular, they do not extend over the center of the housing component 100 in the joining direction or the connector 200 addition. In this way, the risk is particularly low that the connector 200 inadvertently tilts around a rotational axis parallel to the transverse direction under mechanical load, for example, when inserting or unplugging the mating connector or the socket. In particular, a tilting of the connector 200 about an axis of rotation which extends, for example, parallel to the x-axis, is prevented by the abutment surfaces between the connector 200 and the housing component 100. In this case, the length of the locking element 205 in the positive x-direction act as a support lever.

It can also be seen how the edge 405 of the housing termination 400 clamps the connector 200 to the housing component 100 in the xy plane. The bending tabs 410 are shown in FIG FIG. 2 not yet unbent.

FIG. 3 shows a further view of the housing member 100 of the module housing of FIG. 1 , In the illustrated perspective, in particular, one of the recesses 105 is clearer than in FIG Fig. 1 to recognize.

FIG. 4 shows a further view of the connector 200 of the module housing of FIG. 1 , The perspective corresponds approximately to that of FIG. 3 , It can be seen on the locking element 205 facing the viewer that the locking element 205 and the hook element 210 are fastened in a negative x-direction to a support structure 225, so that in particular a section of the locking element 205 extending in the positive y-direction is protected against bending. The support structure 225 is formed in one piece on the plug connector 200 and forms part of the respective end section 203 of the main body 201. The support structure 225 has a wall lying in the zy plane, from which ribs extend in the positive x direction. Two of the ribs run in the xy plane, another perpendicular to it in the xz plane.

On the wall of the support structure 225, a retaining element 230 is optionally formed, which extends in the zy plane. In this case, the holding element 230 is adapted to abut in the positive x-direction on an inner side of the housing component 100 when the connector 200 is attached to the housing component 100, such as in FIG. 2 is shown. In the illustrated, preferred embodiment, the holding element 230 has a support 235, on which the circuit board of the electronic module can be placed.

In the region of its delimitation in the positive z-direction-in other words, its end facing the housing component 100 and facing away from the housing closure 400 -the main body 201 of the connector 200 also has a recess 240. The depression 240 is, for example, in the middle of the Plug frame 220 and the base plate 202 arranged with respect to the transverse direction. By means of a correspondingly shaped engaging element 110 of the housing component 100, which is inserted into the recess 240 in the negative z direction, ie opposite to the joining direction, the plug connector 200 is replaced by mechanical interaction of the engagement element 100 with the recess 240, in particular in positive and negative y. Direction held. As a result, forces that can arise on the plug connector 200 when inserting or releasing a plug connection between the plug connector 200 and a corresponding connector can be introduced into the housing component 100. A bending or displacement of the connector 200 with respect to the housing member 100 is counteracted thereby. The danger of the base plate 202 being bent out of the plane spanned by the transverse direction and the joining direction in a central area between the transversely opposing locking elements 102, 205 when it is mechanically loaded in or against the insertion direction, is particularly so low.

FIG. 5 shows a further perspective view of the housing part 100 of the module housing FIG. 1 , Here, the engagement element 110 on the housing component 100 can be seen, which is adapted to engage in the recess 240 of the connector 200. In other embodiments, a plurality of engaging elements 110 on the housing component 100 and a plurality of corresponding recesses 240 may be provided on the connector 200.

Claims (10)

Module housing having a housing component (100) for fastening an electronic assembly and a connector (200) for electrical connection to the assembly,
wherein the connector (200) has a base body (201) with a plurality of receptacles (215) for electrical plug contacts (217) and with a receptacles (215) encircling the plug frame (220)
the module housing for mechanical attachment of the connector (200) to the housing component (100) having a locking arrangement comprising a locking element (205) of the connector (200) and a locking element (102) of the housing component (100),
wherein the locking element (205) of the connector (200) has a hook element (210) and the locking element (102) of the housing component (100) has a corresponding recess (105) for receiving the hook element (210). Module housing according to claim 1,
wherein the locking member (205) of the connector (200) extends parallel to an extension direction of the plug frame (220);
wherein the hook member (210) is disposed at one end of the locking member (205) of the connector (200); and - The hook member (210) extends at right angles from the locking element (205). Module housing according to claim 1,
wherein the hook element (210) is formed by a projection of an end portion (203) of the main body (201), wherein the end portion (203), starting from a base plate (202) of the main body (201) having the receptacles (215) in an insertion direction (y) of the connector (200) extends and
wherein the projection (210) projects in a joining direction towards the locking element (102) of the housing component (100). Module housing according to claim 3, wherein the shape of the recess (105) corresponds to the shape of the projection (210) and the recess (105) of the projection (210) are arranged such that the projection (210) engages in the recess (105). Module housing according to claim 4, wherein the projection (210) completely fills the recess (105). Module housing according to one of the preceding claims, wherein the connector (200) two locking elements (205) on opposite boundaries of the connector (200) are arranged. Module housing according to one of the preceding claims, wherein - The plug frame (220) has a width which is several times greater than its height; - The connector (200) at a portion of the plug frame (220) extending along the width, a recess (240) which extends against a joining direction of the module housing into the connector (200) into, and - The housing member (100) comprises a corresponding engaging element (110) for engagement in the recess (240). A module housing according to any one of the preceding claims, further comprising a housing termination (400) for terminating the module housing together with the housing component (100) and the connector (200) on all sides. Module housing according to claim 8, wherein the hook element (210) and the corresponding recess (105) are arranged at one end of the housing component (100) or the connector (200) facing the housing end (400) with respect to a joining direction and at most in the joining direction at most extend to the middle of the housing component (100) or of the connector (200). The module housing of claim 9, wherein the connector (200) is adapted to approach towards the housing member (100) towards the hook members (210) and the housing termination (400) is adapted to contact the housing member (100) in the same direction ) and to be connected to it to lock the connector (200) between the housing member (100) and the housing closure (400).

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